Boron allyl-, review

For a comprehensive review of synthetic applications of asymmetric boron allylation reactions, see Chemler, S. R. Roush, W. R. in Modem Carbonyl Chemistry Otera, J., Ed. Wiley-VCH Weinheim, Germany, 2000 Chapt. 11. 

In addition to the predominant allyl and crotyl reagents, a large nnmber of allylic borane 1 and boronate derivatives 2 (Eq. 1) with varions snbstitnents (R -R" ) have been reported. Interested readers can refer to the comprehensive Tabnlar Snrvey at the end of this monograph, which covers the literatnre np to the end of 2005. Several reviews on allylic boron componnds and other allylmetal reagents and their additions to carbonyl compounds and imines have been written prior to this one," " and these sonrces may be consnlted if a more in-depth historical perspective is desired. 

Unlike aldehydes and ketones, allylic boron compounds are not ubiquitous, commercial organic substrates. There are several methods for the preparation of allylic boronates, however, and many of these have been developed in the past decade. This topic has been reviewed recently " so only the most common methods are emphasized in this section. As a result of the lesser stability of allylic boranes, methods to access these reagents are more limited and it is generally easier to prepare allylic boronates with a wide range of functional groups. 

The allyl-metal bond is usually broken very readily by electrophilic reagents and allyl groups are cleaved from mercury, boron, silicon, germanium, tin, and lead much more easily than are the saturated alkyl groups. Kinetic studies, however, have not been very numerous such studies are reviewed in this chapter. 

The polymerization o oxetanes with cationic catalysts has been studied by many investigators. (1.H2) RoseC. ), in particular, first reported the homopolymerization of the parent compound, tri-methylene oxide (TMO), with a Lewis acid catalyst, boron trifluoride. The use of coordination catalysts to polymerize oxetanes has been reported in the patent literature by Vandenberg.W In this work, Vandenberg polymerized oxetanes with the aluminum trialkyl -water-acetylacetone coordination catalyst (referred to as chelate catalyst) that he discovered for epoxide polymerization . This paper describes the homo- and co-polymerization of TMO with these coordination catalysts. Specific TMO copolymers, particularly with unsaturated epoxides such as allyl glycidyl ether (AGE), are shown to provide the basis for a new family o polyether elastomers. These new elastomers are compared with the related propylene oxide-allyl glycidyl ether (PO-AGE) copolymer elastomers. The historical development and general characteristics of polyether elastomers and, in particular, the propylene oxide elastomers, are reviewed below. 

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